EP3606221B1 - Dispositif électronique et procédé de radiocommunication - Google Patents
Dispositif électronique et procédé de radiocommunication Download PDFInfo
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- EP3606221B1 EP3606221B1 EP18771279.9A EP18771279A EP3606221B1 EP 3606221 B1 EP3606221 B1 EP 3606221B1 EP 18771279 A EP18771279 A EP 18771279A EP 3606221 B1 EP3606221 B1 EP 3606221B1
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- equipment
- information
- sps configuration
- terminal equipment
- electronic equipment
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Classifications
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/20—Control channels or signalling for resource management
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/04—Wireless resource allocation
- H04W72/044—Wireless resource allocation based on the type of the allocated resource
- H04W72/0453—Resources in frequency domain, e.g. a carrier in FDMA
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/20—Control channels or signalling for resource management
- H04W72/23—Control channels or signalling for resource management in the downlink direction of a wireless link, i.e. towards a terminal
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W92/00—Interfaces specially adapted for wireless communication networks
- H04W92/04—Interfaces between hierarchically different network devices
- H04W92/10—Interfaces between hierarchically different network devices between terminal device and access point, i.e. wireless air interface
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W92/00—Interfaces specially adapted for wireless communication networks
- H04W92/16—Interfaces between hierarchically similar devices
- H04W92/18—Interfaces between hierarchically similar devices between terminal devices
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W88/00—Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
- H04W88/02—Terminal devices
- H04W88/04—Terminal devices adapted for relaying to or from another terminal or user
Definitions
- Embodiments of the present disclosure generally relate to the field of wireless communications, and in particular to electronic equipments and wireless communication methods. More specifically, the present disclosure relates to an electronic equipment as a network side equipment, an electronic equipment as a relay equipment, an electronic equipment as a remote equipment, a wireless communication method performed by a network side equipment, a wireless communication method performed by a relay equipment, and a wireless communication method performed by a remote equipment.
- a remote UE may communicate with a network side equipment (for example, a base station, including but not limited to an evolution node B (eNB)) via a relay UE.
- a network side equipment for example, a base station, including but not limited to an evolution node B (eNB)
- eNB evolution node B
- the remote UE communicates with the relay UE via a sidelink or a non-3rd Generation Partnership Project (3GPP) link such as Bluetooth and Wireless Fidelity (Wifi), and the relay UE communicates with the network side equipment via a conventional cellular link.
- 3GPP non-3rd Generation Partnership Project
- the remote UE when the remote UE performs services such as Voice over Internet Protocol (VoIP) and Streaming Services, the remote UE needs to request time-frequency resources from the network side equipment before performing service every time, resulting in a large delay and low reliability.
- VoIP Voice over Internet Protocol
- Streaming Services the remote UE needs to request time-frequency resources from the network side equipment before performing service every time, resulting in a large delay and low reliability.
- D2D Device to Device
- V2X vehicle to X
- relay a communication system including a relay
- Embodiments of the present disclosure are defined by the appended Claims.
- An object of the present disclosure is to provide an electronic equipment and a wireless communication method, to improve reliability of communication between devices and reduce delay, thereby meeting QoS requirements of different services and traffic types.
- the network side equipment can perform an SPS configuration for the remote equipment and transmit the SPS configuration of the remote equipment to the relay equipment.
- the remote equipment can acquire SPS configuration information for communication with the relay equipment, and thus fixed frequency resources can be periodically allocated to the remote equipment. Therefore, with the electronic equipments and the wireless communication methods provided in the present disclosure, reliability of communication between devices can be can improved, and delay can be reduced, thereby meeting QoS requirements of different services and traffic types.
- Exemplary embodiments are provided to make the present disclosure be exhaustive and fully convey the scope of the present disclosure to those skilled in the art.
- Various specific details such as specific parts, devices and methods are set forth to provide thorough understanding for the embodiments of the present disclosure. It is apparent to those skilled in the art that the exemplary embodiments may be embodied in many different forms without the specific details, and the specific details are not interpreted as a limit for the scope of the present disclosure.
- well-known processes, well-known structures and well-known technology are not described in detail.
- Figure 1(a) is a schematic diagram showing an application scenario of the present disclosure.
- the remote equipment communicates with the base station providing service for the relay equipment via the relay equipment.
- the remote equipment communicates with the relay equipment through a sidelink
- the relay equipment communicates with the base station through a cellular link.
- Figure 1(b) is a schematic diagram showing another application scenario of the present disclosure.
- the remote equipment in the coverage of a base station, and the remote equipment is located outside the coverage of the base station.
- the remote equipment communicates with the base station providing service for the relay equipment via the relay equipment.
- the remote equipment communicates with the relay equipment through a sidelink, and the relay equipment communicates with the base station through a cellular link.
- the remote equipment may also communicate with the relay equipment through a non-3GPP link.
- Figures 1(a) and 1(b) only show the case that there is one relay equipment within the service range of the base station, and there may be multiple relay equipments within the service range of the base station. Further, Figures 1(a) and 1(b) only show the case that the relay equipment is connected to one remote equipment, and the relay equipment may also be connected to multiple remote equipments. Each of the multiple remote equipments may communicate with the base station via the relay equipment.
- Figures 1(a) and 1(b) show two exemplary scenarios of the present disclosure, and the application scenario of the present disclosure is not limited thereto.
- the technical solution of the present disclosure is applicable to all communication systems including inter-device communication, such as a D2D communication system, a V2X communication system, and a communication system including a relay.
- FIG. 2 is a block diagram showing a configuration example of an electronic equipment 200 according to an embodiment of the present disclosure.
- the electronic equipment 200 herein may be a network side equipment in a wireless communication network, such as the base stations shown in Figures 1(a) and 1(b) , including but not limited to an eNB and a gNB (a node B in 5G).
- the electronic equipment 200 may include a processing circuit 210 and a transceiver circuit 220. It should be noted that the electronic equipment 200 may include one processing circuit 210 or multiple processing circuits 210.
- processing circuit 210 may include various discrete functional units to perform various different functions and/or operations. It should be noted that the functional units may be physical entities or logical entities, and units referred to as different names may be implemented as a same physical entity.
- the processing circuit 210 may include a configuration unit 211.
- the configuration unit 211 may perform a SPS configuration for a remote equipment.
- the remote equipment herein communicates with the electronic equipment 200 via a relay equipment within a service range of the electronic equipment 200.
- the base stations in Figures 1(a) and 1(b) may perform a SPS configuration for the remote equipment. That is, the configuration unit 211 may configure a SPS resource of the remote equipment.
- the SPS resource herein is used for communication between the remote equipment and the relay equipment, which is also referred to as a sidelink SPS.
- the transceiver circuit 220 may transmit SPS configuration information of the remote equipment to the relay equipment.
- the SPS configuration information includes the SPS configuration of the remote equipment, including a SPS index and a SPS period.
- the electronic equipment 200 as a network side equipment may perform a SPS configuration for a remote equipment connected with a relay equipment within the service range of the electronic equipment and transmit SPS configuration information of the remote equipment to the relay equipment.
- the remote equipment can acquire SPS configuration information for communication with the relay equipment, and thus fixed frequency resources can be periodically allocated to the remote equipment.
- the SPS technology can be applied to communication between terminal devices, thereby improving reliability of communication between devices and reducing delay, and thus meeting QoS requirements of different services and traffic types.
- the transceiver circuit 220 may transmit the SPS configuration information of the remote equipment to the relay equipment via high layer signaling.
- the high layer signaling may include Radio Resource Control (RRC) signaling.
- RRC Radio Resource Control
- the transceiver circuit 220 may carry the SPS configuration information of the remote equipment by using a SPS-Config cell in a RadioResourceConfigDedicated message.
- the processing circuit 210 may further be configured to generate identification information of the remote equipment to which the SPS configuration information is pertinent, and to include the identification information of the remote equipment in the SPS configuration information of the remote equipment. That is, the identification information added in the SPS configuration information may indicate that, the SPS configuration included in the SPS configuration information is a SPS configuration for the remote equipment corresponding to the identification information and is used for communication between the remote equipment corresponding to the identification information and the relay equipment.
- the processing circuit 210 may include the identification information in the SPS configuration information, and the transceiver circuit 220 transmits the identification information together with the SPS configuration information to the relay equipment. That is, the SPS configuration information at least includes: an SPS configuration including information such as an SPS index and an SPS period, and identification information of the remote equipment to which the SPS configuration information is pertinent.
- the identification information of the remote equipment may include a Radio Network Tempory Identity (RNTI) of the remote equipment.
- the identification information may further include other identification information, which is not limited in the present disclosure.
- the identification information of the remote equipment may be identification information allocated by the electronic equipment 200 for the remote equipment.
- the RNTI of the remote equipment may be indicated by "sl-R-SPS-RNTI", and signaling about “sl-R-SPS-RNTI” may be added to the high layer signaling, where "sl” represents a sidelink, "R” represents a remote equipment, and "sl-R-SPS-RNTI” represents an RNTI of the SPS for the sidelink, that is allocated by the electronic equipment 200 for the remote equipment.
- sl-R-SPS-RNTI represents an RNTI of the SPS for the sidelink, that is allocated by the electronic equipment 200 for the remote equipment.
- the electronic equipment 200 may transmit the SPS configuration information to the relay equipment.
- the electronic equipment 200 may transmit the SPS configuration information of the remote equipment to the relay equipment in two manners.
- the processing circuit 210 e.g., an indication information generating unit
- the processing circuit 210 may be configured to generate indication information for indicating whether a target terminal of the SPS configuration information of the remote equipment is the relay equipment
- the transceiver circuit 220 may further be configured to transmit the indication information to the relay equipment.
- the relay equipment although the SPS configuration of the remote equipment is an SPS configuration used for communication between the remote equipment and the relay equipment, the relay equipment also needs to save the SPS configuration of the remote equipment to extract identification information from the SPS configuration.
- the relay equipment may save the SPS configuration of the remote equipment in a high layer. Therefore, the target terminal of the SPS configuration information of the remote equipment transmitted by the network side equipment may be the relay equipment or the remote equipment.
- the processing circuit 210 may be configured to generate indication information for indicating a target terminal of the SPS configuration information of the remote equipment.
- the processing circuit 210 may include the indication information in an adaptation layer.
- the processing circuit 210 may further be configured to denote the indication information with one bit of information. For example, in a case that the indication information is "0", it is indicated that the target terminal of the SPS configuration information of the remote equipment is not the relay equipment but the remote equipment. In addition, in a case that the indication information is "1", it is indicated that the target terminal of the SPS configuration information of the remote equipment is the relay equipment.
- the relay equipment directly forwards the SPS configuration information of the remote equipment to the remote equipment. That is, the relay equipment does not save the SPS configuration information of the remote equipment, and does not unpack (for example, unpack in a high layer) the SPS configuration information of the remote equipment but directly forwards the SPS configuration information of the remote equipment. In this case, the relay equipment cannot obtain the SPS configuration information of the remote equipment.
- the electronic equipment 200 may transmit the SPS configuration information of the remote equipment including the same content twice to the relay equipment, such that the target terminal of the SPS configuration information for one time is not the relay equipment, and the target terminal of the SPS configuration information for the other time is the relay equipment.
- the SPS configuration information including the same content indicates that, the SPS configuration included in the SPS configuration information, i.e., information such as the SPS index and the SPS period is the same, and the identification information of the remote equipment included in the SPS configuration information is the same.
- the relay equipment does not forward the SPS configuration information of the remote equipment to the remote equipment, but saves the SPS configuration information of the remote equipment.
- saving the SPS configuration information of the remote equipment includes: the relay equipment may unpack (for example, unpack in a high layer) the SPS configuration information of the remote equipment and extract the identification information of the remote equipment included in the SPS configuration information. According to the above example of the present disclosure, the relay equipment can well distinguish the remote equipment connected thereto.
- the relay equipment may save the SPS configuration information of the multiple remote equipments to extract identification information of the multiple remote equipments respectively, so as to distinguish the multiple remote equipments from each other.
- the electronic equipment 200 may transmit the SPS configuration information of the remote equipment once to the relay equipment, and the relay equipment forwards the SPS configuration information of the remote equipment to the remote equipment connected with the relay equipment.
- FIG. 3 is a signaling flowchart for performing a SPS configuration for a remote equipment according to an example of the present disclosure.
- a network side equipment shown in Figure 3 may be implemented by the electronic equipment 200 provided in the present disclosure.
- a remote equipment transmits a UEAssistanceInformation message for indicating a desired period and the desired number of SPS configurations established for the remote equipment, to a relay equipment.
- the relay equipment forwards the UEAssistanceInformation message to the network side equipment.
- the network side equipment transmits SPS configuration information of the remote equipment to the relay equipment.
- the network side equipment may generate indication information for indicating that a target terminal of the SPS configuration information of the remote equipment is the relay equipment.
- the relay equipment saves the SPS configuration information of the remote equipment.
- step S305 the network side equipment transmits the SPS configuration information of the remote equipment to the relay equipment again, where the content of the SPS configuration information transmitted in this step may be the same as that of the SPS configuration information transmitted in step S303.
- the network side equipment may generate indication information for indicating that the target terminal of the SPS configuration information of the remote equipment is not the relay equipment but the remote equipment.
- the relay equipment directly forwards the SPS configuration information of the remote equipment to the remote equipment.
- the above indication information may indicate not only a target terminal of the SPS configuration information, but also a target terminal of an ordinary message.
- the processing circuit 210 of the electronic equipment 200 may be configured to generate indication information for indicating whether a target terminal of a message transmitted by the electronic equipment 200 to the relay equipment is the relay equipment, and the transceiver circuit 220 may be configured to transmit the indication information to the relay equipment.
- the message transmitted by the electronic equipment 200 to the relay equipment may be transmitted via high layer signaling such as RRC signaling. Further, the electronic equipment 200 may denote the indication information with one bit of information.
- the indication information is "0"
- the target terminal of the message is not the relay equipment but the remote equipment.
- the indication information is "1”
- the target terminal of the message is the relay equipment, which is similar to that of the SPS configuration information, and details thereof are not described herein again.
- the electronic equipment 200 may generate the indication information for indicating whether the target terminal of the SPS configuration information of the remote equipment is the relay equipment.
- the indication information may include one bit of information, and the network side equipment needs to transmit the SPS configuration information of the remote equipment twice to the relay equipment, with one being for the relay equipment saving the SPS configuration information of the remote equipment, and the other being for the remote equipment saving the SPS configuration information of the remote equipment, thereby implementing the SPS resource configuration for the remote equipment.
- the processing circuit 210 may be configured to generate indication information for instructing the relay equipment to forward and save the SPS configuration information of the remote equipment, and the transceiver circuit 220 may further be configured to transmit the indication information to the relay equipment.
- the processing circuit 210 may include the indication information in an adaptation layer. Specifically, the processing circuit 210 may further be configured to denote the indication information with two bits of information. For example, in a case that the indication information is "10", it is indicated that the relay equipment forwards and saves the SPS configuration information of the remote equipment.
- the relay equipment when the relay equipment receives the indication information, the relay equipment saves the SPS configuration information of the remote equipment, including unpacking (for example, unpacking in a high layer) the SPS configuration of the remote equipment and extracting the identification information of the remote equipment. Further, the relay equipment may directly forward the SPS configuration information of the remote equipment to the remote equipment.
- the saving process and forwarding process in this manner are similar to those in the first manner.
- the processing circuit 210 may instruct the relay equipment to process other messages than the SPS configuration information of the remote equipment by using the above two bits of indication information. For example, in a case that the indication information is "00", the relay equipment is instructed to forward the message (for example, a message transmitted by the network side equipment to the remote equipment, where the specific content in the message does not need to be learned by the relay equipment) directly to the remote equipment, that is, the relay equipment does not save and unpack (for example, unpack in a high layer) the message.
- the indication information is "00"
- the relay equipment is instructed to forward the message (for example, a message transmitted by the network side equipment to the remote equipment, where the specific content in the message does not need to be learned by the relay equipment) directly to the remote equipment, that is, the relay equipment does not save and unpack (for example, unpack in a high layer) the message.
- the relay equipment In a case that the indication information is "01”, the relay equipment is instructed to save the message (for example, a message transmitted by the network side equipment to the relay equipment) locally, that is, the relay equipment unpacks (for example, unpacks in a high layer) the message but does not forward the message. In a case that the indication information is "10”, the relay equipment is instructed to save the message (for example, the SPS configuration information of the remote equipment described above) locally and forward the message to the remote equipment. In addition, the indication information of "11" denotes reserved bits.
- the processing circuit 210 may be configured to generate indication information for instructing the relay equipment to process a message from the electronic equipment 200, and the transceiver circuit 220 may transmit the indication information to the relay equipment. Further, the relay equipment may process the message from the electronic equipment 200 based on the indication information, including performing at least one of operations of: forwarding the message to the remote equipment; and saving the message.
- the message from the electronic equipment 200 may be a message transmitted via high layer signaling such as RRC signaling.
- FIG. 4 is a signaling flowchart for performing a SPS configuration for a remote equipment according to another embodiment of the present disclosure.
- a network side equipment shown in Figure 4 may be implemented by the electronic equipment 200 provided in the present disclosure.
- a remote equipment transmits a UEAssistanceInformation message for indicating a desired period and the desired number of SPS configurations established for the remote equipment, to a relay equipment.
- the relay equipment forwards the UEAssistanceInformation message to the network side equipment.
- the network side equipment transmits SPS configuration information of the remote equipment to the relay equipment.
- the network side equipment may generate indication information for instructing the relay equipment to save and forward the SPS configuration information of the remote equipment.
- the relay equipment saves the SPS configuration information of the remote equipment, that is, the relay equipment unpacks (for example, unpacks in a high layer) the SPS configuration information.
- the relay equipment may forward the SPS configuration information to the remote equipment.
- the electronic equipment 200 may generate the indication information for instructing the relay equipment to forward and save the SPS configuration of the remote equipment.
- the indication information may include two bits of information, and the network side equipment needs to transmit the SPS configuration information of the remote equipment to the relay equipment only once, thereby implementing the SPS resource configuration for the remote equipment.
- Implementations for performing a SPS configuration for a remote equipment are described in detail above.
- the remote equipment When the remote equipment receives the SPS configuration information, the remote equipment generally does not use the SPS configuration immediately, but uses the SPS configuration after receiving activation information for activating the SPS configuration.
- the processing circuit 210 may further be configured to generate activation information for activating the SPS configuration of the remote equipment, and the transceiver circuit 220 may further be configured to transmit the activation information to the relay equipment.
- the transceiver circuit 220 may further be configured to transmit the activation information to the relay equipment via low layer signaling.
- the transceiver circuit 220 may transmit the activation information to the relay equipment via a Physical Downlink Control Channel (PDCCH). More specifically, the transceiver circuit 220 may transmit the activation information to the relay equipment by using Downlink Control Information (DCI).
- DCI Downlink Control Information
- the processing circuit 210 may further be configured to generate the activation information by scrambling the DCI using the identification information of the remote equipment.
- the DCI may be implemented in the format 5A.
- functions of domains of the DCI format 5A are the same as those of a conventional DCI format 5A.
- the activation information may include resource indication information for SPS configuration and activation indication information for activating the SPS configuration.
- the electronic equipment 200 may further transmit release information for releasing the SPS configuration to the relay equipment.
- the release information may be transmitted in the same manner as the activation indication information. Therefore, all embodiments described in the present disclosure regarding the activation indication information are applicable to the release information. That is, the electronic equipment 200 may transmit the release information for the SPS configuration of the remote equipment to the relay equipment via low layer signaling in a manner similar to that of the activation indication information. In addition, the electronic equipment 200 may transmit the release information for the SPS configuration of the remote equipment to the relay equipment via high layer signaling such as RRC signaling.
- the resource indication information for the SPS configuration may be indicated by "s1 SPS configuration index”, and the activation/release indication information for activating/releasing the SPS configuration may be indicated by "Activation/release indication”.
- the following signaling may be added in high layer signaling: "When the DCI format 5A is scrambled by using sl-R-SPS-RNTI, there are the following domains: s1 SPS configuration index- 3 bits, Activation/release indication-1 bit".
- the resource indication information for the SPS configuration and the activation indication information for activating the SPS configuration may be indicated by other parameters, and the above information may be indicated by other signaling.
- the relay equipment may forward the activation information to the remote equipment, which will be described in detail later.
- the processing circuit 210 may further be configured to generate confirmation information for confirming a target remote equipment of the activation information
- the transceiver circuit 220 may further be configured to transmit the confirmation information to the relay equipment.
- the electronic equipment 200 may transmit the confirmation information to the relay equipment, to cause the relay equipment to forward the confirmation information to the remote equipment.
- the confirmation information includes activation indication information for activating the SPS configuration of the remote equipment. That is, the remote equipment activates the SPS configuration after receiving the confirmation information from the electronic equipment 200, i.e., begins to use resources in the SPS configuration.
- the processing circuit 210 may generate the confirmation information by using Media Access Control (MAC) Control Element (CE). Further, the processing circuit 210 may generate the confirmation information by using reserved bits (including but not limited to reserved bits "10111") in a logical channel identify (LCID) of a sub-header of a MAC Protocol Data Unit (PDU).
- MAC Media Access Control
- CE Media Access Control Control Element
- reserved bits including but not limited to reserved bits "10111”
- LCID logical channel identify
- PDU MAC Protocol Data Unit
- the electronic equipment 200 may transmit the activation information for activating the SPS configuration to the remote equipment via the relay equipment, and may transmit the confirmation information to the remote equipment via the relay equipment, so as to activate the SPS configuration of the remote equipment.
- the SPS technology can be applied to communication between terminal devices, thereby improving the reliability of the communication between devices and reducing the delay, and thus meeting QoS requirements of different services and traffic types.
- the electronic equipment 500 herein may be a relay equipment in a wireless communication system, such as the relay equipment shown in Figures 1(a) and 1(b) .
- Figure 5 is a block diagram showing a configuration example of an electronic equipment 500 according to an embodiment of the present disclosure.
- the electronic equipment 500 may include a processing circuit 510 and a transceiver circuit 520. It should be noted that the electronic equipment 500 may include one processing circuit 510 or multiple processing circuits 510.
- processing circuit 510 may include various discrete functional units to perform various different functions and/or operations. It should be noted that the functional units may be physical entities or logical entities, and units referred to as different names may be implemented as a same physical entity.
- the processing circuit 510 may include a processing unit 511.
- the transceiver circuit 520 may receive SPS configuration information of a remote equipment from a network side equipment providing service for the electronic equipment 500, and the remote equipment communicates with the network side equipment via the electronic equipment 500.
- the network side equipment herein may be, for example, the electronic equipment 200 described in the first embodiment.
- the processing unit 511 in the processing circuit 510 may perform at least one of operations of: saving the SPS configuration information; and controlling the transceiver circuit 520 to transmit the SPS configuration information to the remote equipment.
- the electronic equipment 500 may receive the SPS configuration information of the remote equipment from the network side equipment, and may save the SPS configuration information or forward the SPS configuration information to the remote equipment, thereby meeting the QoS requirements of different services and traffic types.
- the transceiver circuit 520 may be configured to receive the SPS configuration information of the remote equipment via high layer signaling such as the RRC signaling described above.
- the SPS configuration information may include identification information of the remote equipment to which the SPS configuration information is pertinent, such as the RNTI described above.
- the transceiver circuit 520 may receive from the network side equipment, indication information for indicating whether a target terminal of the SPS configuration information is the electronic equipment 500. Further, the processing circuit 510 may save the SPS configuration information in a case that the indication information indicates that the target terminal of the SPS configuration information is the electronic equipment 500, and the processing circuit 510 may control the transceiver circuit 520 to transmit the SPS configuration information to the remote equipment in a case that the indication information indicates that the target terminal of the SPS configuration information is not the electronic equipment 500.
- the electronic equipment 500 may determine, based on local IDs in the adaptation layer, the remote equipment to which the SPS configuration information is pertinent, and then forward the SPS configuration information to the remote equipment.
- the transceiver circuit 520 may receive from the network side equipment, indication information for instructing the electronic equipment 500 to save and forward the SPS configuration information of the remote equipment.
- the processing circuit 510 may save the SPS configuration information and control the transceiver circuit 520 to transmit the SPS configuration information to the remote equipment.
- the processing circuit 510 may unpack (for example, unpack in a high layer) the SPS configuration information when saving the SPS configuration information, thereby extracting the identification information of the remote equipment.
- the transceiver circuit 520 may be configured to receive first activation information for activating the SPS configuration of the remote equipment from the network side equipment. As described above, the transceiver circuit 520 may further be configured to receive the first activation information from the network side equipment via low layer signaling. For example, the transceiver circuit 520 may receive the first activation information from the network side equipment via a Physical Downlink Control Channel (PDCCH). More specifically, the transceiver circuit 520 may receive the first activation information from the network side equipment by using Downlink Control Information (DCI).
- DCI Downlink Control Information
- the first activation information may include resource indication information for SPS configuration and activation indication information for activating the SPS configuration.
- the first activation information is generated by the network side equipment by scrambling the DCI using the identification information of the remote equipment.
- the processing circuit 510 may descramble the first activation information using the identification information of the remote equipment.
- the electronic equipment 500 may save the SPS configuration of the remote equipment connected with the electronic equipment, so as to acquire the identification information of the remote equipment.
- the electronic equipment 500 may acquire identification information of the multiple remote equipments.
- the electronic equipment 500 may acquire identification information of the electronic equipment 500. That is, the electronic equipment 500 may receive from the network side equipment, SPS configuration information for the communication between the electronic equipment 500 and the remote equipment and SPS configuration information for the communication between the electronic equipment 500 and the network side equipment.
- the SPS configuration information for the communication between the electronic equipment 500 and the remote equipment may include first identification information of the electronic equipment 500, and the SPS configuration information for the communication between the electronic equipment 500 and the network side equipment may include second identification information of the electronic equipment 500.
- the electronic equipment 500 may attempt to descramble the first activation information using the identification information of all the remote equipments and the identification information of the electronic equipment 500, thereby finding the identification information by which the first activation information can be correctly descrambled. In this way, the electronic equipment 500 can determine the remote equipment to which the first activation information is pertinent.
- the processing circuit 510 may generate second activation information for activating the SPS configuration of the remote equipment, and the transceiver circuit 520 may transmit the second activation information to the remote equipment.
- the transceiver circuit 520 may transmit the second activation information to the remote equipment via high layer signaling.
- the transceiver circuit 520 may transmit the second activation information to the remote equipment via RRC signaling.
- the electronic equipment 500 may transmit the second activation information directly to the remote equipment via the RRC signaling.
- the second activation information may include resource indication information for SPS configuration of the remote equipment and activation indication information for activating the SPS configuration.
- the transceiver circuit 520 may transmit the second activation information to the remote equipment via low layer signaling.
- the transceiver circuit 520 may transmit the second activation information to the remote equipment via a Physical Sidelink Control Channel (PSCCH).
- PSCCH Physical Sidelink Control Channel
- the transceiver circuit 520 may transmit the second activation information to the remote equipment via low layer signaling such as PSCCH.
- the processing circuit 510 may generate the second activation information by scrambling Sidelink Control Information (SCI) using the identification information of the remote equipment.
- SCI Sidelink Control Information
- the SCI may be implemented in the format 2, which is newly defined in the present disclosure, to generate activation information transmitted by the electronic equipment 500 to the remote equipment.
- functions of domains of the SCI format 2 are the same as those of the conventional DCI format 5A. In this manner, when the remote equipment receives the second activation information, the SPS configuration can be activated if the second activation information can be correctly descrambled using the identification information of the remote equipment.
- Figure 6 is a signaling flowchart showing a first activation manner in the present disclosure.
- a relay equipment shown in Figure 6 may be implemented by the electronic equipment 500 according to the embodiment of the present disclosure, and a network side equipment shown in Figure 6 may be implemented by the electronic equipment 200 according to the embodiment of the present disclosure.
- step S601 the network side equipment transmits first activation information to the relay equipment, where the first activation information is scrambled using the identification information of the remote equipment.
- step S602 the relay equipment descrambles the first activation information using the acquired identification information of all remote equipments and the identification information of the relay equipment to determine the remote equipment to which the first activation information is pertinent.
- step S603 the relay equipment scrambles the SCI format 2 using the identification information of the remote equipment to generate second activation information.
- step S604 the relay equipment transmits the second activation information to the remote equipment.
- the relay equipment may transmit the scrambled activation information to the remote equipment.
- the second activation information may include resource indication information for SPS configuration of the remote equipment and activation indication information for activating the SPS configuration.
- the remote equipment correctly descrambles the second activation information using the identification information of the remote equipment, the SPS configuration indicated by the resource indication information may be activated.
- the resource indication information for the SPS configuration may be indicated by "s1 SPS configuration index”, and the activation/release indication information for activating/releasing the SPS configuration may be indicated by "Activation/release indication”.
- the following signaling may be added in high layer signaling: "When the SCI format 2 is scrambled by using sl-R-SPS-RNTI, there are the following domains: s1 SPS configuration index- 3 bits, Activation/release indication-1 bit".
- the resource indication information for the SPS configuration and the activation indication information for activating the SPS configuration may be indicated by other parameters, and the above information may be indicated by other signaling.
- the transceiver circuit 520 may transmit the second activation information to the remote equipment via low layer signaling such as PSCCH.
- the electronic equipment 500 does not scramble the second activation information, and directly transmits the second activation information that is not scrambled to the remote equipment.
- the second activation information may include resource indication information for SPS configuration of the remote equipment, and does not include activation indication information for activating the SPS configuration of the remote equipment. Since the second activation information is not scrambled, the remote equipment cannot know whether the second activation information is pertinent to the remote equipment. Therefore, in this embodiment, the remote equipment needs to receive confirmation information for confirming a target remote equipment of the second activation information.
- the transceiver circuit 520 may receive confirmation information for confirming a target remote equipment of the second activation information from the network side equipment.
- the confirmation information includes activation indication information for activating the SPS configuration of the remote equipment. Further, the transceiver circuit 520 may forward the confirmation information to the remote equipment. In this way, the SPS configuration indicated in the second activation information can be activated only when the remote equipment receives the confirmation information which is pertinent to the remote equipment.
- Figure 7 is a signaling flowchart showing a second activation manner in the present disclosure.
- a relay equipment shown in Figure 7 may be implemented by the electronic equipment 500 according to the embodiment of the present disclosure, and a network side equipment shown in Figure 7 may be implemented by the electronic equipment 200 according to the embodiment of the present disclosure.
- step S701 the network side equipment transmits first activation information to the relay equipment, where the first activation information is scrambled using the identification information of the remote equipment.
- step S702 the relay equipment descrambles the first activation information using the acquired identification information of all remote equipments to determine the remote equipment to which the first activation information is pertinent.
- step S703 the relay equipment transmits second activation information that is not scrambled to the remote equipment.
- step S704 the network side equipment transmits confirmation information to the relay equipment.
- step S705 the relay equipment forwards the confirmation information to the remote equipment.
- the transceiver circuit 520 may transmit the second activation information to the remote equipment via low layer signaling such as PSCCH.
- the electronic equipment 500 does not scramble the second activation information, and directly transmits the second activation information that is not scrambled to the remote equipment.
- the second activation information may include resource indication information for SPS configuration of the remote equipment.
- the processing circuit 510 e.g., a confirmation information generating unit, which is not shown
- the transceiver circuit 520 may transmit the confirmation information to the remote equipment. In this way, the SPS configuration indicated in the second activation information can be activated only when the remote equipment receives the confirmation information which is pertinent to the remote equipment.
- the processing circuit 510 may generate the confirmation information by using the MAC CE. Further, the processing circuit 510 may generate the confirmation information by using reserved bits in the LCID of the subheader of the MAC PDU.
- Figure 8 is a signaling flowchart showing a third activation manner in the present disclosure.
- a relay equipment shown in Figure 8 may be implemented by the electronic equipment 500 according to the embodiment of the present disclosure, and a network side equipment shown in Figure 8 may be implemented by the electronic equipment 200 according to the embodiment of the present disclosure.
- step S801 the network side equipment transmits first activation information to the relay equipment, where the first activation information is scrambled using the identification information of the remote equipment.
- step S802 the relay equipment descrambles the first activation information using the acquired identification information of all remote equipments to determine the remote equipment to which the first activation information is pertinent.
- step S803 the relay equipment transmits second activation information that is not scrambled to the remote equipment.
- step S804 the relay equipment generates confirmation information and transmits the confirmation information to the remote equipment.
- the relay equipment may transmit the second activation information that is not scrambled to the remote equipment.
- the second activation information may include resource indication information for SPS configuration of the remote equipment.
- the network side equipment or the relay equipment may generate confirmation information for confirming a target remote equipment of the second activation information.
- the confirmation information may include activation indication information for activating the SPS configuration of the remote equipment. That is, the SPS configuration indicated in the second activation information can be activated only when the remote equipment receives the confirmation information which is pertinent to the remote equipment.
- the added signaling includes only the "s1 SPS configuration index- 3 bits", but does not includes the "Activation/release indication-1 bit".
- the above example is not limiting, and the above information may be indicated by other signaling.
- the electronic equipment 500 may forward the SPS configuration information and the SPS activation information to the remote equipment.
- the SPS technology can be applied to the communication between the terminal devices, thereby improving the reliability of the communication between the devices and reducing the latency, and thus meeting QoS requirements of different services and traffic types.
- the electronic equipment 500 may be located within the service range of the electronic equipment 200 as a network side equipment, and thus descriptions related to the electronic equipment 200 in the first embodiment are applicable in this embodiment.
- the electronic equipment 900 herein may be a remote equipment in a wireless communication system, such as the remote equipment shown in Figures 1(a) and 1(b) .
- Figure 9 is a block diagram showing a configuration example of an electronic equipment 900 according to an embodiment of the present disclosure.
- the electronic equipment 900 may include a processing circuit 910 and a transceiver circuit 920. It should be noted that the electronic equipment 900 may include one processing circuit 910 or multiple processing circuits 910.
- processing circuit 910 may include various discrete functional units to perform various different functions and/or operations. It should be noted that the functional units may be physical entities or logical entities, and units referred to as different names may be implemented as a same physical entity.
- the processing circuit 910 may include a processing unit 911.
- the transceiver circuit 920 may receive SPS configuration information of the electronic equipment 900 from a relay equipment, and the electronic equipment 900 communicates with a network side equipment providing service for the relay equipment via the relay equipment.
- the relay equipment herein may be, for example, the electronic equipment 500 described in the second embodiment
- the network side equipment herein may be, for example, the electronic equipment 200 described in the first embodiment.
- the processing unit 911 in the processing circuit 920 may save the SPS configuration information.
- the transceiver circuit 920 may receive the SPS configuration information via high layer signaling.
- the high layer signaling may include RRC signaling.
- the SPS configuration information may include identification information of the electronic equipment 900, such as an RNTI.
- the process of saving the SPS configuration information by the processing unit 911 may include extracting the identification information in the SPS configuration information.
- the transceiver circuit 920 may receive activation information for activating the SPS configuration of the electronic equipment 900 from the relay equipment.
- the transceiver circuit 920 may receive the activation information for activating the SPS configuration of the electronic equipment 900 from the relay equipment via high layer signaling such as RRC signaling.
- the processing circuit 910 e.g., an activation unit, which is not shown
- the transceiver circuit 920 may receive the activation information for activating the SPS configuration of the electronic equipment 900 from the relay equipment via low layer signaling such as PSCCH.
- the processing circuit 910 may activate the SPS configuration when descrambling the activation information using the identification information of the electronic equipment 900 correctly.
- the transceiver circuit 920 may receive confirmation information from the relay equipment or the network side equipment, and the processing circuit 910 (e.g., an activation unit, which is not shown) may activate the SPS configuration when the confirmation information indicates that a target equipment of the activation information is the electronic equipment 900.
- the processing circuit 910 e.g., an activation unit, which is not shown
- the relay equipment may provide service for one or more remote equipments. That is, one or more remote equipments may communicate with the network side equipment via one relay equipment.
- one or more remote equipments may communicate with the network side equipment via one relay equipment.
- Figure 10 is a signaling flowchart for performing a SPS configuration for a remote equipment and activating the SPS configuration according to an embodiment of the present disclosure.
- the SPS configuration information may be transmitted in two manners, and the SPS configuration may be activated in three manners.
- the two configuration manners and the three activation manners are shown by dashed boxes. Therefore, in practical applications, one of the two configuration manners may be selected to perform SPS configuration, and one of the three activation manners may be selected to activate the SPS configuration.
- the details shown in Figure 10 have been described above and will not be described again herein.
- Figure 11 is a signaling flowchart for performing SPS configurations for multiple remote equipments and activating the SPS configurations according to another embodiment of the present disclosure.
- Figure 11 illustrates the case of multiple remote equipments by taking the first configuration manner and the first activation manner shown in Figure 10 as an example. It should be noted that in the case of multiple remote equipments, the second configuration mannner and the second and third activation manners may be selected.
- a remote equipment 1 and a remote equipment 2 respectively transmit information UEAssistanceInformation to a network side equipment via a relay equipment.
- the information UEAssistanceInformation from the remote equipment 1 is identified as UEAssistanceInformation1
- the information UEAssistanceInformation from the remote equipment 2 is identified as UEAssistanceInformation2.
- the network side equipment transmits SPS configuration information to the remote equipment 1 and the remote equipment 2 via the relay equipment, respectively.
- the network side equipment transmits activation information for activating the SPS configuration to the remote equipment 1 and the remote equipment 2 via the relay equipment, respectively.
- processing may be performed in a manner similar to that in Figure 11 .
- the electronic equipment 900 may receive the SPS configuration information from the network side equipment, and may receive the activation information for activating the SPS configuration and the confirmation information from the network side equipment or the relay equipment, so as to activate the SPS configuration.
- the SPS technology can be applied to the communication between the terminal devices, thereby improving the reliability of the communication between the devices and reducing the latency, and thus meeting QoS requirements of different services and traffic types.
- the electronic equipment 900 may communicate with the electronic equipment 200 as a network side equipment via the electronic equipment 500 as a relay equipment, and thus descriptions related to the electronic equipment 200 in the first embodiment and the electronic equipment 500 in the second embodiment 500 are applicable in this embodiment.
- the network side equipment herein may be the electronic equipment 200 in the first embodiment, and thus descriptions related to the electronic equipment 200 in the first embodiment are applicable in this embodiment.
- Figure 12 is a flowchart showing a wireless communication method performed by a network side equipment according to an embodiment of the present disclosure.
- step S1210 SPS configuration is performed for a remote equipment.
- the remote equipment communicates with a network side equipment via a relay equipment within a service range of the network side equipment.
- step S1220 SPS configuration information of the remote equipment is transmitted to the relay equipment.
- the SPS configuration information of the remote equipment is transmitted to the relay equipment via high layer signaling.
- the method further includes: generating identification information of the remote equipment to which the SPS configuration information is pertinent; and including the identification information of the remote equipment in the SPS configuration information of the remote equipment.
- the method further includes: generating indication information for indicating whether a target terminal of the SPS configuration information of the remote equipment is the relay equipment; and transmitting the indication information to the relay equipment.
- the method further includes: generating indication information for instructing the relay equipment to forward and save the SPS configuration information of the remote equipment.
- the method further includes: generating activation information for activating the SPS configuration of the remote equipment; and transmitting the activation information to the relay equipment.
- the activation information is transmitted to the relay equipment via low layer signaling.
- the activation information is generated by scrambling downlink control information DCI using the identification information of the remote equipment.
- the method further includes: generating confirmation information for confirming a target remote equipment of the activation information; and transmitting the confirmation information to the relay equipment.
- the relay equipment herein may be the electronic equipment 500 in the second embodiment, and thus descriptions related to the electronic equipment 500 in the second embodiment are applicable in this embodiment.
- Figure 13 is a flowchart showing a wireless communication method performed by a relay equipment according to an embodiment of the present disclosure.
- step S1310 SPS configuration information of a remote equipment is received from a network side equipment providing service for a relay equipment.
- the remote equipment communicates with the network side equipment via the relay equipment.
- step S1320 at least one of the following operations is performed: saving the SPS configuration information; and transmitting the SPS configuration information to the remote equipment.
- the SPS configuration information of the remote equipment is received via high layer signaling.
- the SPS configuration information includes identification information of the remote equipment to which the SPS configuration information is pertinent.
- the method further includes: receiving, from the network side equipment, indication information for indicating whether a target terminal of the SPS configuration information is the relay equipment.
- the method further includes: saving the SPS configuration information in a case that the indication information indicates that the target terminal of the SPS configuration information is the relay equipment.
- the method further includes: transmitting the SPS configuration information to the remote equipment in a case that the indication information indicates that the target terminal of the SPS configuration information is not the relay equipment.
- the method further includes: receiving, from the network side equipment, indication information for instructing the relay equipment to save and forward the SPS configuration information of the remote equipment.
- the method further includes: saving the SPS configuration information, and transmitting the SPS configuration information to the remote equipment.
- the method further includes: receiving, from the network side equipment, first activation information for activating the SPS configuration of the remote equipment.
- the first activation information is received via low layer signaling.
- the first activation information is descrambled using the identification information of the remote equipment.
- the method further includes: generating second activation information for activating the SPS configuration of the remote equipment; and transmitting the second activation information to the remote equipment.
- the second activation information is transmitted to the remote equipment via low layer signaling.
- the method further includes: generating the second activation information by scrambling Sidelink Control Information SCI using the identification information of the remote equipment.
- the method further includes: generating confirmation information for confirming a target remote equipment of the second activation information; and transmitting the confirmation information to the remote equipment.
- the remote equipment herein may be the electronic equipment 900 in the third embodiment, and thus descriptions related to the electronic equipment 900 in the third embodiment are applicable in this embodiment.
- Figure 14 is a flowchart showing a wireless communication method performed by a remote equipment according to an embodiment of the present disclosure.
- step S1410 SPS configuration information of a remote equipment is received from a relay equipment.
- the remote equipment communicates with a network side equipment providing service for the relay equipment via the relay equipment.
- step S1420 the SPS configuration information is saved.
- the SPS configuration information is received via high layer signaling.
- the SPS configuration information includes identification information of the remote equipment.
- the method further includes: receiving, from the relay equipment, activation information for activating the SPS configuration of the remote equipment.
- the method further includes: activating the SPS configuration when descrambling the activation information using the identification information of the remote equipment correctly.
- the method further includes: receiving confirmation information from the relay equipment or the network side equipment; and activating the SPS configuration when the confirmation information indicates that a target equipment of the activation information is the remote equipment.
- the network side equipment can be implemented as a base station.
- the base station may be implemented as any type of eNB, such as a macro eNB and a small eNB.
- the base station may further be implemented as any type of gNB.
- the small eNB may be an eNB covering a cell smaller than a macro cell, such as a pico eNB, a micro eNB or a home (femto) eNB.
- the base station may be implemented as any other type of base station, such as a NodeB and a base transceiver station (BTS).
- BTS base transceiver station
- the base station may include: a main body (also referred to as a base station device) configured to control wireless communication; and one or more remote radio heads (RRH) arranged at positions different from the main body.
- a main body also referred to as a base station device
- RRH remote radio heads
- various types of terminals described below may operate as a base station by performing functions of the base station temporarily or in a semi-persistent manner.
- the terminal device as a relay equipment and a remote equipment may be implemented as mobile terminals (such as a smart phone, a tablet personal computer (PC), a notebook PC, a portable game terminal, a portable/dongle mobile router and a digital camera) or a vehicle terminal (such as a car navigation apparatus).
- the terminal device may be a wireless communication module (such as an integrated circuit module including a single chip) installed on each of the above terminals.
- FIG. 15 is a block diagram showing a first schematic configuration example of an eNB to which the technology of the present disclosure may be applied.
- An eNB 1500 includes one or more antennas 1510 and a base station device 1520.
- the base station device 1520 and each antenna 1510 may be connected to each other via an RF cable.
- Each of the antennas 1510 includes a single or multiple antenna elements (such as multiple antenna elements included in a multi-input multi-output (MIMO) antenna), and is used for the base station device 1520 to transmit and receive wireless signals.
- the eNB 1500 may include the multiple antennas 1510.
- the multiple antennas 1510 may be compatible with multiple frequency bands used by the eNB 1500.
- Figure 15 shows the example in which the eNB 1500 includes the multiple antennas 1510, the eNB 1500 may also include a single antenna 1510.
- the base station device 1520 includes a controller 1521, a memory 1522, a network interface 1523, and a wireless communication interface 1525.
- the controller 1521 may be, for example, a CPU or a DSP, and operates various functions of a higher layer of the base station device 1520. For example, the controller 1521 generates a data packet from data in signals processed by the wireless communication interface 1525, and transfers the generated packet via the network interface 1523. The controller 1521 may bundle data from multiple base band processors to generate the bundled packet, and transfer the generated bundled packet. The controller 1521 may have logical functions of performing control such as radio resource control, radio bearer control, mobility management, admission control and scheduling. The control may be performed in corporation with an eNB or a core network node in the vicinity.
- the memory 1522 includes a RAM and a ROM, and stores a program executed by the controller 1521, and various types of control data (such as a terminal list, transmission power data, and scheduling data).
- the network interface 1523 is a communication interface for connecting the base station device 1520 to a core network 1524.
- the controller 1521 may communicate with a core network node or another eNB via the network interface 1523.
- the eNB 1500, and the core network node or the other eNB may be connected to each other via a logical interface (such as an S1 interface and an X2 interface).
- the network interface 1523 may also be a wired communication interface or a wireless communication interface for wireless backhaul. If the network interface 1523 is a wireless communication interface, the network interface 1523 may use a higher frequency band for wireless communication than a frequency band used by the wireless communication interface 1525.
- the wireless communication interface 1525 supports any cellular communication scheme (such as Long Term Evolution (LTE) and LTE-Advanced), and provides wireless connection to a terminal positioned in a cell of the eNB 1500 via the antenna 1510.
- the wireless communication interface 1525 may typically include, for example, a baseband (BB) processor 1526 and an RF circuit 1527.
- the BB processor 1526 may perform, for example, encoding/decoding, modulating/demodulating, and multiplexing/demultiplexing, and performs various types of signal processing of layers (such as LI, medium access control (MAC), wireless link control (RLC), and a packet data convergence protocol (PDCP)).
- the BB processor 1526 may have a part or all of the above-described logical functions instead of the controller 1521.
- the BB processor 1526 may be a memory that stores a communication control program, or a module that includes a processor and a related circuit configured to execute the program. Updating the program may allow the functions of the BB processor 1526 to be changed.
- the module may be a card or a blade that is inserted into a slot of the base station device 1520. Alternatively, the module may also be a chip that is mounted on the card or the blade.
- the RF circuit 1527 may include, for example, a mixer, a filter, and an amplifier, and transmits and receives wireless signals via the antenna 1510.
- the wireless communication interface 1525 may include the multiple BB processors 1526.
- the multiple BB processors 1526 may be compatible with multiple frequency bands used by the eNB 1500.
- the wireless communication interface 1525 may include the multiple RF circuits 1527.
- the multiple RF circuits 1527 may be compatible with multiple antenna elements.
- Figure 15 shows the example in which the wireless communication interface 1525 includes the multiple BB processors 1526 and the multiple RF circuits 1527, the wireless communication interface 1525 may also include a single BB processor 1526 or a single RF circuit 1527.
- FIG 16 is a block diagram showing a second schematic configuration example of an eNB to which the technology of the present disclosure may be applied.
- An eNB 1630 includes one or more antennas 1640, a base station device 1650, and an RRH 1660.
- the RRH 1660 and each antenna 1640 may be connected to each other via an RF cable.
- the base station device 1650 and the RRH 1660 may be connected to each other via a high speed line such as an optical fiber cable.
- Each of the antennas 1640 includes a single or multiple antenna elements (such as multiple antenna elements included in an MIMO antenna), and is used for the RRH 1660 to transmit and receive wireless signals.
- the eNB 1630 may include the multiple antennas 1640.
- the multiple antennas 1640 may be compatible with multiple frequency bands used by the eNB 1630.
- Figure 16 shows the example in which the eNB 1630 includes the multiple antennas 1640, the eNB 1630 may also include a single antenna 1640.
- the base station device 1650 includes a controller 1651, a memory 1652, a network interface 1653, a wireless communication interface 1655, and a connection interface 1657.
- the controller 1651, the memory 1652, and the network interface 1653 are the same as the controller 1521, the memory 1522, and the network interface 1523 described with reference to Figure 15 .
- the wireless communication interface 1655 supports any cellular communication scheme (such as LTE and LTE-Advanced), and provides wireless communication to a terminal positioned in a sector corresponding to the RRH 1660 via the RRH 1660 and the antenna 1640.
- the wireless communication interface 1655 may typically include, for example, a BB processor 1656.
- the BB processor 1656 is the same as the BB processor 1526 described with reference to Figure 15 , except the BB processor 1656 is connected to an RF circuit 1664 of the RRH 1660 via the connection interface 1657.
- the wireless communication interface 1655 may include the multiple BB processors 1656.
- the multiple BB processors 1656 may be compatible with multiple frequency bands used by the eNB 1630.
- Figure 16 shows the example in which the wireless communication interface 1655 includes the multiple BB processors 1656, the wireless communication interface 1655 may also include a single BB processor 1656.
- connection interface 1657 is an interface for connecting the base station device 1650 (wireless communication interface 1655) to the RRH 1660.
- the connection interface 1657 may also be a communication module for communication in the above-described high speed line that connects the base station device 1650 (wireless communication interface 1655) to the RRH 1660.
- the RRH 1660 includes a connection interface 1661 and a wireless communication interface 1663.
- connection interface 1661 is an interface for connecting the RRH 1660 (wireless communication interface 1663) to the base station device 1650.
- the connection interface 1661 may also be a communication module for communication in the above-described high speed line.
- the wireless communication interface 1663 transmits and receives wireless signals via the antenna 1640.
- the wireless communication interface 1663 may typically include, for example, the RF circuit 1664.
- the RF circuit 1664 may include, for example, a mixer, a filter, and an amplifier, and transmits and receives wireless signals via the antenna 1640.
- the wireless communication interface 1663 may include multiple RF circuits 1664.
- the multiple RF circuits 1664 may support multiple antenna elements.
- Figure 16 shows the example in which the wireless communication interface 1663 includes the multiple RF circuits 1664, the wireless communication interface 1663 may also include a single RF circuit 1664.
- the processing circuit 210 described with reference to Figure 2 may be implemented by the controller 1521 and/or the controller 1651. At least a part of functions may be implemented by the controller 1521 and the controller 1651. For example, the controller 1521 and/or the controller 1651 may perform a SPS configuration by executing instructions stored in the memory.
- FIG 17 is a block diagram showing a schematic configuration example of a smart phone 1700 to which the technology of the present disclosure may be applied.
- the smart phone 1700 includes a processor 1701, a memory 1702, a storage 1703, an external connection interface 1704, a camera 1706, a sensor 1707, a microphone 1708, an input device 1709, a display device 1710, a speaker 1711, a wireless communication interface 1712, one or more antenna switches 1715, one or more antennas 1716, a bus 1717, a battery 1718, and an auxiliary controller 1719.
- the processor 1701 may be, for example, a CPU or a system on a chip (SoC), and controls functions of an application layer and another layer of the smart phone 1700.
- the memory 1702 includes a RAM and a ROM, and stores a program executed by the processor 1701 and data.
- the storage 1703 may include a storage medium such as a semiconductor memory and a hard disk.
- the external connection interface 1704 is an interface for connecting an external apparatus (such as a memory card and a universal serial bus (USB) apparatus) to the smart phone 1700.
- an external apparatus such as a memory card and a universal serial bus (USB) apparatus
- the camera 1706 includes an image sensor (such as a charge coupled device (CCD) and a complementary metal oxide semiconductor (CMOS)), and generates a captured image.
- the sensor 1707 may include a group of sensors such as a measurement sensor, a gyro sensor, a geomagnetic sensor, and an acceleration sensor.
- the microphone 1708 converts sounds that are inputted to the smart phone 1700 to audio signals.
- the input device 1709 includes, for example, a touch sensor configured to detect touch onto a screen of the display device 1710, a keypad, a keyboard, a button, or a switch, and receive an operation or information inputted from a user.
- the display device 1710 includes a screen (such as a liquid crystal display (LCD) and an organic light-emitting diode (OLED) display), and displays an output image of the smart phone 1700.
- the speaker 1711 converts audio signals that are outputted from the smart phone 1700 to sounds.
- the wireless communication interface 1712 supports any cellular communication scheme (such as LTE and LTE-Advanced), and performs wireless communication.
- the wireless communication interface 1712 may typically include, for example, a BB processor 1713 and a RF circuit 1714.
- the BB processor 1713 may perform, for example, encoding/decoding, modulating/demodulating, and multiplexing/demultiplexing, and performs various types of signal processing for wireless communication.
- the RF circuit 1714 may include, for example, a mixer, a filter, and an amplifier, and transmits and receives wireless signals via the antenna 1716.
- the wireless communication interface 1712 may be a chip module having the BB processor 1713 and the RF circuit 1714 integrated thereon.
- the wireless communication interface 1712 may include multiple BB processors 1713 and multiple RF circuits 1714.
- Figure 17 shows the example in which the wireless communication interface 1712 includes the multiple BB processors 1713 and the multiple RF circuits 1714, the wireless communication interface 1712 may also include a single BB processor 1713 or a single RF circuit 1714.
- the wireless communication interface 1712 may support another type of wireless communication scheme such as a short-distance wireless communication scheme, a near field communication scheme, and a wireless local area network (LAN) scheme.
- the wireless communication interface 1712 may include the BB processor 1713 and the RF circuit 1714 for each wireless communication scheme.
- Each of the antenna switches 1715 switches connection destinations of the antennas 1716 among multiple circuits (such as circuits for different wireless communication schemes) included in the wireless communication interface 1712.
- Each of the antennas 1716 includes a single or multiple antenna elements (such as multiple antenna elements included in an MIMO antenna), and is used for the wireless communication interface 1712 to transmit and receive wireless signals.
- the smart phone 1700 may include the multiple antennas 1716.
- Figure 17 shows the example in which the smart phone 1700 includes the multiple antennas 1716, the smart phone 1700 may also include a single antenna 1716.
- the smart phone 1700 may include the antenna 1716 for each wireless communication scheme.
- the antenna switches 1715 may be omitted from the configuration of the smart phone 1700.
- the bus 1717 connects the processor 1701, the memory 1702, the storage 1703, the external connection interface 1704, the camera 1706, the sensor 1707, the microphone 1708, the input device 1709, the display device 1710, the speaker 1711, the wireless communication interface 1712, and the auxiliary controller 1719 to each other.
- the battery 1718 supplies power to blocks of the smart phone 1700 shown in Figure 17 via feeder lines that are partially shown as dashed lines in the Figure 17 .
- the auxiliary controller 1719 operates a minimum necessary function of the smart phone 1700, for example, in a sleep mode.
- the processing circuit 510 described with reference to Figure 5 and the processing circuit 910 described with reference to Figure 9 may be implemented by the processor 1701 or the auxiliary controller 1719. At least a part of functions may be implemented by the processor 1701 or the secondary controller 1719.
- the processor 1701 or the auxiliary controller 1719 may perform the function of saving SPS configuration by executing the instructions stored in the memory 1702 or the storage 1703.
- FIG. 18 is a block diagram showing a schematic configuration example of a car navigation apparatus 1820 to which the technology of the present disclosure may be applied.
- the car navigation apparatus 1820 includes a processor 1821, a memory 1822, a global positioning system (GPS) module 1824, a sensor 1825, a data interface 1826, a content player 1827, a storage medium interface 1828, an input device 1829, a display device 1830, a speaker 1831, a wireless communication interface 1833, one or more antenna switches 1836, one or more antennas 1837, and a battery 1838.
- GPS global positioning system
- the processor 1821 may be, for example, a CPU or a SoC, and controls a navigation function and another function of the car navigation apparatus 1820.
- the memory 1822 includes a RAM and a ROM, and stores a program executed by the processor 1821 and data.
- the GPS module 1824 determines a position (such as latitude, longitude, and altitude) of the car navigation apparatus 1820 by using GPS signals received from a GPS satellite.
- the sensor 1825 may include a group of sensors such as a gyro sensor, a geomagnetic sensor, and an air pressure sensor.
- the data interface 1826 is connected to, for example, an in-vehicle network 1841 via a terminal that is not shown, and acquires data (such as vehicle speed data) generated by the vehicle.
- the content player 1827 reproduces content stored in a storage medium (such as a CD and a DVD) that is inserted into the storage medium interface 1828.
- the input device 1829 includes, for example, a touch sensor configured to detect touch onto a screen of the display device 1830, a button or a switch, and receives an operation or information inputted from a user.
- the display device 1830 includes a screen such as a LCD or an OLED display, and displays an image of the navigation function or content that is reproduced.
- the speaker 1831 outputs sounds of the navigation function or the content that is reproduced.
- the wireless communication interface 1833 supports any cellular communication scheme (such as LTE and LTE-Advanced), and performs wireless communication.
- the wireless communication interface 1833 may typically include, for example, a BB processor 1834 and an RF circuit 1835.
- the BB processor 1834 may perform, for example, encoding/decoding, modulating/demodulating, and multiplexing/demultiplexing, and performs various types of signal processing for wireless communication.
- the RF circuit 1835 may include, for example, a mixer, a filter, and an amplifier, and transmits and receives wireless signals via the antenna 1837.
- the wireless communication interface 1833 may also be a chip module having the BB processor 1834 and the RF circuit 1835 integrated thereon.
- the wireless communication interface 1833 may include the multiple BB processors 1834 and the multiple RF circuits 1835.
- Figure 18 shows the example in which the wireless communication interface 1833 includes the multiple BB processors 1834 and the multiple RF circuits 1835, the wireless communication interface 1833 may also include a single BB processor 1834 or a single RF circuit 1835.
- the wireless communication interface 1833 may support another type of wireless communication scheme such as a short-distance wireless communication scheme, a near field communication scheme, and a wireless LAN scheme.
- the wireless communication interface 1833 may include the BB processor 1834 and the RF circuit 1835 for each wireless communication scheme.
- Each of the antenna switches 1836 switches connection destinations of the antennas 1837 among multiple circuits (such as circuits for different wireless communication schemes) included in the wireless communication interface 1833.
- Each of the antennas 1837 includes a single or multiple antenna elements (such as multiple antenna elements included in an MIMO antenna), and is used for the wireless communication interface 1833 to transmit and receive wireless signals.
- the car navigation apparatus 1820 may include the multiple antennas 1837.
- Figure 18 shows the example in which the car navigation apparatus 1820 includes the multiple antennas 1837, the car navigation apparatus 1820 may also include a single antenna 1837.
- the car navigation apparatus 1820 may include the antenna 1837 for each wireless communication scheme.
- the antenna switches 1836 may be omitted from the configuration of the car navigation apparatus 1820.
- the battery 1838 supplies power to blocks of the car navigation apparatus 1820 shown in Figure 18 via feeder lines that are partially shown as dashed lines in the Figure 18 .
- the battery 1838 accumulates power supplied form the vehicle.
- the processing circuit 510 described with reference to Figure 5 and the processing circuit 910 described with reference to Figure 9 may be implemented by the processor 1821. At least a part of functions may be implemented by the processor 1821. For example, the processor 1821 may perform the function of saving a SPS configuration by executing the instructions stored in the memory 1822.
- the technology of the present disclosure may also be implemented as an in-vehicle system (or a vehicle) 1840 including one or more blocks of the car navigation apparatus 1820, the in-vehicle network 1841 and a vehicle module 1842.
- the vehicle module 1842 generates vehicle data (such as a vehicle speed, an engine speed or failure information), and outputs the generated data to the in-vehicle network 1841.
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- Engineering & Computer Science (AREA)
- Computer Networks & Wireless Communication (AREA)
- Signal Processing (AREA)
- Mobile Radio Communication Systems (AREA)
Claims (12)
- Équipement électronique (200) sur un côté réseau, comprenant :un circuit de traitement (210, 211) configuré de façon à exécuter une configuration de programmation semi-persistante, SPS, pour un équipement terminal distant (900), cet équipement terminal distant communiquant avec l'équipement électronique via un équipement terminal relais (500) dans les limites d'une portée de service de l'équipement électronique ; etun circuit émetteur-récepteur (220) configuré de façon à transmettre des informations de configuration SPS de l'équipement terminal distant à l'équipement terminal relais ;le circuit de traitement étant configuré en outre de façon à générer des informations d'indication pour indiquer si un terminal cible des informations de configuration SPS de l'équipement terminal distant est l'équipement terminal relais ou pas, et le circuit émetteur-récepteur étant configuré en outre de façon à transmettre les informations d'indication à l'équipement terminal relais, etle circuit de traitement étant configuré en outre de façon à générer des informations d'indication pour demander à l'équipement terminal relais de réacheminer et sauvegarder les informations de configuration SPS de l'équipement terminal distant.
- Équipement électronique selon la revendication 1, dans lequel le circuit émetteur-récepteur est configuré de façon à transmettre les informations de configuration SPS de l'équipement terminal distant à l'équipement terminal relais via une signalisation de couche supérieure.
- Équipement électronique selon la revendication 1, dans lequel le circuit de traitement est configuré en outre de façon à générer des informations d'identification de l'équipement terminal distant pour lequel les informations de configuration SPS sont pertinentes, et à inclure ces informations d'identification de l'équipement terminal distant dans les informations de configuration SPS de l'équipement terminal distant.
- Équipement électronique selon la revendication 3, dans lequel le circuit de traitement est configuré en outre de façon à générer des informations d'activation pour activer la configuration SPS de l'équipement terminal distant, et le circuit émetteur-récepteur est configuré en outre de façon à transmettre ces informations d'activation à l'équipement terminal relais, et dans lequel
le circuit émetteur-récepteur est configuré de façon à transmettre les informations d'activation à l'équipement terminal relais via une signalisation de couche inférieure. - Équipement électronique selon la revendication 4, dans lequel le circuit de traitement génère les informations d'activation en embrouillant des informations de commande de liaison descendante, DCI, en utilisant les informations d'identification de l'équipement terminal distant, et dans lequel
le circuit de traitement est configuré en outre de façon à générer des informations de confirmation pour confirmer un équipement terminal distant cible des informations d'activation, et le circuit émetteur-récepteur est configuré en outre de façon à transmettre les informations de confirmation à l'équipement terminal relais - Équipement électronique (500) sur un côté équipement terminal relais, comprenant :un circuit émetteur-récepteur (520) configuré de façon à recevoir des informations de configuration de programmation semi-persistante, SPS, d'un équipement terminal distant (900) en provenance d'un équipement côté réseau (200) fournissant un service pour l'équipement électronique, l'équipement terminal distant communiquant avec l'équipement côté réseau via l'équipement électronique ; etun circuit de traitement (510, 511) configuré de façon à exécuter au moins une des opérations suivantes : la sauvegarde des informations de configuration SPS ; et la commande du circuit émetteur-récepteur afin de transmettre les informations de configuration SPS à l'équipement terminal distant ;le circuit émetteur-récepteur étant configuré en outre de façon à recevoir, en provenance de l'équipement côté réseau, des informations d'indication pour indiquer si un terminal cible des informations de configuration SPS est l'équipement électronique ou pas et pour demander à l'équipement électronique de sauvegarder et réacheminer les informations de configuration SPS de l'équipement terminal distant,le circuit de traitement étant configuré en outre de façon à sauvegarder les informations de configuration SPS dans un cas où les informations d'indication indiquent que le terminal cible des informations de configuration SPS est l'équipement électronique, etle circuit de traitement étant configuré en outre de façon à sauvegarder les informations de configuration SPS, et à commander le circuit émetteur-récepteur pour qu'il transmette les informations de configuration SPS à l'équipement terminal distant dans un cas où les informations d'indication demandent à l'équipement électronique de sauvegarder et réacheminer les informations de configuration SPS de l'équipement terminal distant.
- Équipement électronique selon la revendication 6, dans lequel le circuit émetteur-récepteur est configuré de façon à recevoir les informations de configuration SPS de l'équipement terminal distant via une signalisation de couche supérieure, et
dans lequel les informations de configuration SPS comprennent des informations d'identification de l'équipement terminal distant pour lequel les informations de configuration SPS sont pertinentes. - Équipement électronique selon la revendication 7, dans lequel le circuit émetteur-récepteur est configuré de façon à recevoir, en provenance de l'équipement côté réseau, des premières informations d'activation pour activer la configuration SPS de l'équipement terminal distant,le circuit émetteur-récepteur étant configuré de façon à recevoir les premières informations d'activation via une signalisation de couche inférieure,le circuit de traitement étant configuré en outre de façon à désembrouiller les premières informations d'activation en utilisant les informations d'identification de l'équipement terminal distant, etle circuit de traitement étant configuré en outre de façon à générer des deuxièmes informations d'activation pour activer la configuration SPS de l'équipement terminal distant, et le circuit émetteur-récepteur étant configuré en outre de façon à transmettre les deuxièmes informations d'activation à l'équipement terminal distant.
- Équipement électronique selon la revendication 8, dans lequel le circuit émetteur-récepteur est configuré de façon à transmettre les deuxièmes informations d'activation à l'équipement terminal distant via une signalisation de couche inférieure,le circuit de traitement générant les deuxièmes informations d'activation en embrouillant des informations de commande de liaison latérale, SCI, en utilisant les informations d'identification de l'équipement terminal distant, etle circuit de traitement étant configuré en outre de façon à générer des informations de confirmation pour confirmer un équipement terminal distant cible des deuxièmes informations d'activation, et le circuit émetteur-récepteur étant configuré en outre de façon à transmettre les informations de confirmation à l'équipement terminal distant.
- Système comprenant un équipement électronique (900) sur un côté équipement terminal distant, cet équipement électronique comprenant :un circuit émetteur-récepteur (920) configuré de façon à recevoir des informations de configuration de programmation semi-persistante, SPS, de l'équipement électronique en provenance d'un équipement terminal relais (500), cet équipement électronique communiquant avec un équipement côté réseau (200) fournissant un service pour l'équipement électronique via l'équipement terminal relais dans un cas où les informations d'indication indiquent que le terminal cible des informations de configuration SPS est l'équipement électronique ; etun circuit de traitement (910, 911) configuré de façon à sauvegarder les informations de configuration SPS ; etce système comprenant en outre l'équipement électronique sur un côté équipement terminal relais selon la revendication 6.
- Système selon la revendication 10, dans lequel le circuit émetteur-récepteur sur l'équipement terminal distant est configuré de façon à recevoir les informations de configuration SPS via une signalisation de couche supérieure, et
les informations de configuration SPS comprenant des informations d'identification de l'équipement électronique. - Système selon la revendication 11, dans lequel le circuit émetteur-récepteur sur l'équipement terminal distant est configuré de façon à recevoir des informations d'activation pour activer la configuration SPS de l'équipement électronique en provenance de l'équipement terminal relais,le circuit de traitement étant configuré en outre de façon à activer la configuration SPS lors du désembrouillage des informations d'activation en utilisant les informations d'identification de l'équipement électronique correctement, etle circuit émetteur-récepteur étant configuré en outre de façon à recevoir des informations de confirmation en provenance de l'équipement terminal relais ou de l'équipement côté réseau, et le circuit de traitement étant configuré en outre de façon à activer la configuration SPS lorsque les informations de confirmation indiquent qu'un équipement cible des informations d'activation est l'équipement électronique.
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CN201710184563.4A CN108633040A (zh) | 2017-03-24 | 2017-03-24 | 电子设备以及无线通信方法 |
PCT/CN2018/072800 WO2018171313A1 (fr) | 2017-03-24 | 2018-01-16 | Dispositif électronique, et procédé de radiocommunication |
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KR (1) | KR102480438B1 (fr) |
CN (2) | CN108633040A (fr) |
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CN108811071B (zh) * | 2017-05-04 | 2023-09-22 | 华为技术有限公司 | 传输信号的方法和装置 |
CN110603880A (zh) * | 2017-05-05 | 2019-12-20 | 华为技术有限公司 | 半持续调度方法、用户设备和网络设备 |
CN108207036B (zh) * | 2017-09-30 | 2022-07-12 | 中兴通讯股份有限公司 | 一种半持久调度的方法及装置 |
WO2019183961A1 (fr) * | 2018-03-30 | 2019-10-03 | 华为技术有限公司 | Procédé de communication et équipement terminal |
US11297641B2 (en) * | 2018-12-13 | 2022-04-05 | Qualcomm Incorporated | Scheduling of periodic traffic due to a missed transmission opportunity in unlicensed spectrum |
WO2020202799A1 (fr) * | 2019-03-29 | 2020-10-08 | ソニー株式会社 | Dispositif de communication, dispositif de station de base, procédé de communication et programme de communication |
US20220086869A1 (en) * | 2020-09-16 | 2022-03-17 | Qualcomm Incorporated | Semi-persistent scheduling of sidelink communications |
US11582590B2 (en) * | 2020-12-15 | 2023-02-14 | Qualcomm Incorporated | Vehicle communications system with vehicle controller and set of wireless relay devices |
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KR20120074254A (ko) * | 2010-12-27 | 2012-07-05 | 한국전자통신연구원 | 단말간 직접 연결 통신 및 단말 릴레잉을 위한 디바이스 대 디바이스 링크의 연결 설정 및 스케쥴링 방법 |
US9609680B2 (en) * | 2014-03-18 | 2017-03-28 | Qualcomm Incorporated | Signaling flows and buffer status report for a group in device-to-device broadcast communication |
US9883513B2 (en) | 2014-03-19 | 2018-01-30 | Qualcomm Incorporated | Scheduling of device-to-device scheduling assignment for mode1 |
KR101759609B1 (ko) * | 2014-03-20 | 2017-07-20 | 엘지전자 주식회사 | 무선 통신 시스템에서 신호를 송수신하기 위한 방법 및 이를 위한 장치 |
WO2015152581A1 (fr) * | 2014-03-30 | 2015-10-08 | 엘지전자(주) | Procédé pour transmettre/recevoir des informations de commande de liaison descendante dans un système de communication sans fil prenant en charge une communication de dispositif à dispositif et appareil correspondant |
CN104703224B (zh) | 2015-04-09 | 2018-05-15 | 宇龙计算机通信科技(深圳)有限公司 | 用于d2d通信的资源配置方法、装置和终端 |
CN106211332B (zh) | 2015-05-05 | 2021-08-17 | 中兴通讯股份有限公司 | 资源分配的方法和装置 |
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CN107071916A (zh) * | 2017-05-05 | 2017-08-18 | 宇龙计算机通信科技(深圳)有限公司 | 一种资源调度方法及相关设备 |
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- 2018-01-16 EP EP18771279.9A patent/EP3606221B1/fr active Active
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US20190166613A1 (en) | 2019-05-30 |
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CN108633040A (zh) | 2018-10-09 |
JP7124821B2 (ja) | 2022-08-24 |
JP2020515086A (ja) | 2020-05-21 |
US11057918B2 (en) | 2021-07-06 |
KR20190131473A (ko) | 2019-11-26 |
EP3606221A1 (fr) | 2020-02-05 |
CN109247079A (zh) | 2019-01-18 |
KR102480438B1 (ko) | 2022-12-23 |
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